Pinned Repositories
BackMix
'BackMix: Mitigating Shortcut Learning in Echocardiography with Minimal Supervision' (MICCAI, 2024)
class-incremental-learning-echo
Under review at MICCAI workshop ASMUS
Joint_Graph_Segmentation
Novel architecture for graph segmentation networks which leverage the benefits of both dense- and point- based algorithms to improve segmentation accuracy while maintaining anatomical plausibility
kitbransby.github.io
Localised-Elastic-Deformation
Elastic Deformation that is localised to a specific position on a segmentation mask. Enables smooth augmentation by enlarging or reducing size of segmentation area without distorting nearby pixels
Neural_Mean_Discrepancy
Implementation of 'Neural Mean Discrepancy for Efficient Out-of-Distribution Detection' (CVPR, 2022)
POLYCORE
Polygon-based Contour Refiner (POLYCORE): a method that addresses topological error using the relational inductive bias of graph networks while also optimising for pixel level accuracy using vector field refinement.
kitbransby's Repositories
kitbransby/Joint_Graph_Segmentation
Novel architecture for graph segmentation networks which leverage the benefits of both dense- and point- based algorithms to improve segmentation accuracy while maintaining anatomical plausibility
kitbransby/Localised-Elastic-Deformation
Elastic Deformation that is localised to a specific position on a segmentation mask. Enables smooth augmentation by enlarging or reducing size of segmentation area without distorting nearby pixels
kitbransby/BackMix
'BackMix: Mitigating Shortcut Learning in Echocardiography with Minimal Supervision' (MICCAI, 2024)
kitbransby/class-incremental-learning-echo
Under review at MICCAI workshop ASMUS
kitbransby/Neural_Mean_Discrepancy
Implementation of 'Neural Mean Discrepancy for Efficient Out-of-Distribution Detection' (CVPR, 2022)
kitbransby/kitbransby.github.io
kitbransby/POLYCORE
Polygon-based Contour Refiner (POLYCORE): a method that addresses topological error using the relational inductive bias of graph networks while also optimising for pixel level accuracy using vector field refinement.